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Transparent, Explainable and Affective AI in Medical Systems (TEAAM)

Organizers

Grzegorz J. Nalepa, AGH University of Science and Technology, Jagiellonian University, Poland
Gregor Stiglic, University of Maribor, Slovenia
Sławomir Nowaczyk, Halmstad University, Sweden
Jose M. Juarez, University of Murcia, Spain
Jerzy Stefanowski, Poznan University of Technology, Poland

Abstract

Medical systems highlight important requirements and challenges for the AI solutions. In particular, demands for interpretability of models and knowledge representations are much higher than in other domains. The current health-related AI applications rarely provide an integrated yet transparent and humanized solutions. However, from both patient's and doctor's perspective, there is need for approaches that are comprehensive, credible and trusted. By explaining the reasoning behind recommendations, the medical AI systems support users to accept or reject their predictions. Furthermore, healthcare is particularly challenging due to medicine and ethical requirements, laws and regulations and the real caution taken by physicians while treating the patients. Improving individual's health is a complex process, requiring understanding and collaboration between the doctor and the patient. Building up this collaboration not only requires individualized personalization, but also a proper adaptation to the gradual changes of patient’s condition, including their emotional state. Recently, AI solutions have been playing an important mediating role in understanding how both medical and personal factors interact with respect to diagnosis and treatment adherence. As the number of such applications is expected to rapidly grow in next years, their humanized aspect will play a critical role in their adoption. This workshop will bring together researchers from academia and industry to discuss current topics of interest in interpretability, explainability and affect related to AI based systems present in different healthcare domains.

Topics of interest

  • explanation in medical systems
  • comprehensive and interpretable knowledge representations
  • interpretable machine learning in medical applications
  • explanatory user interfaces and human computer interaction for explainable AI
  • consequences of black-box AI systems in medicine
  • ethical aspects, law and social responsibility
  • emotion-based personalization and affective computing solutions in medicine
  • human-oriented adaptation in medical systems
  • patient behaviour change detection and explanation transparency in person-centered health care
  • context-aware interpretable medical systems
  • empowering patients and self-management through understandable AI

Motivation

The investment and development of AI in the clinical field offers huge societal benefits in the current era of digital medicine, with a significant amount of data around healthcare processes captured in the form of Electronic Health Records, health insurance claims, medical imaging databases, disease registries, spontaneous reporting sites, clinical trials, etc. This positive impact is put under the spotlight regarding the medical responsibilities, the potentially harmful use, the emerging interest in the regulation of algorithms and the need of explanations. Predictive modeling becomes increasingly necessary for both data analysts and health care professionals, as it offers unique opportunities for deriving health care insights. At the same time, these opportunities come with significant dangers and risks that are unlike anything we have seen in the past. This controversial discussion provides a number of research challenges such as: 1) interpretability in Machine Learning/AI, 2) affective AI in medicine, 3) Data safety - patient data are highly sensitive and require appropriate safety measures and regulation, 4) Data heterogeneity - medical data comes in many forms including: structured, unstructured, text, images, continuous signals from sensors, etc., 5) Sparsity, imperfectness and data gaps – patient records maybe sparse due to infrequent clinical visits, and often, data are not equally collected at each medical encounter as well as they are affected by various sources of imperfectness.

Schedule

Keynote speaker: Prof. Marcin Grzegorzek, Universität zu Lübeck, Institut für Medizinische Informatik

Title: Human-centred Pattern Recognition for Assistive Health Technologies

Abstract: We live in a data-driven society and significantly contribute to this concept by voluntarily generating terabytes of data everyday. Pattern recognition algorithms that automatically analyse and interpret that huge amount of heterogeneous data towards prevention (early risk detection), diagnosis, assistance in therapy/aftercare/rehabilitation as well as nursing have achieved an extremely high scientific, societal and economic importance. In this talk, Marcin Grzegorzek will present his research in the area motivated above considering, apart from machine learning, aspects of hardware, participatory design and ELSI (Ethical, Legal and Social Implications). Two of Marcin's projects, (1) Cognitive Village: Adaptively Learning Technical Support Platform for Elderly (funded by the German Federal Ministry of Education and Research) and (2) My-AHA: My Active and Healthy Ageing (EC Horizon 2020), will serve as concrete application scenarios.

Proceedings

We are aiming at proving CEUR WS proceedings containg all the papers presented at the workshop. Furthermore, we are considering a proposal of a special issue of a JCR journal.

Program Committee

(tentative)
Martin Atzmueller, Univeristy of Tilburg, The Netherlands
Piotr Augustyniak, AGH University of Science and Technology, Poland
Jerzy Błaszczyński, Poznań University of Technology, Poland
David Camacho, Universidad Autonoma de Madrid, Spain
Manuel Campos, University of Murcia, Spain
Alex Freitas, University of Kent, United Kingdom
Alejandro Rodríguez González, Universidad Politecnica de Madrid
Marcin Grzegorzek, Universität zu Lübeck, Germany
Jean-Baptiste Lamy, University Paris 13, France
Giorgio Leonardi, University Piemonte Orientale, Italy
Helena Lindgren, Umeå University, Sweden
Zachary Lipton, Carnegie Mellon University, USA
Peter Lucas Leiden University, The Netherlands
Agnieszka Ławrynowicz, Poznań University of Technology, Poland
Juan Carlos Nieves, Umeå University, Sweden
Erini Ntoutsi, Leibniz University Hannover, Germany
Jose Palma, University of Murcia, Spain
Niels Peek, University of Manchester, United Kingdom
Petra Povalej Brzan, University of Maribor, Slovenia
John F. Rauthmann, Universität zu Lübeck, Germany
Myra Spiliopoulou, Otto-von-Guericke-University Magdeburg, Germany
Stephen Swift, Brunel University, United Kingdom
Allan Tucker, Brunel University, United Kingdom
Cristina Soguero Ruiz, Universidad Rey Juan Carlos, Spain

Important Dates

  • Paper submission: 2019-04-29
  • Notification: 2019-05-13
  • Camera-ready: 2019-05-31
  • Workshop: 2019-06-26-29

Paper submission

The Easychair installation at https://easychair.org/conferences/?conf=teaam2019 shoud be used for submissions. We encourage full (12pp) as well as short (6pp) original research papers. Springer LNCS format of PDF submissions is required.

Schedule

9:00-10:30 Opening session (Chair: J. Stefanowski)

9:00 TEAAM Opening: Workshop chairs
9:15 Marcin Grzegorzek: Human-centred Pattern Recognition for Assistive Health Technologies

10:30-10:50 Coffee Break

10:50-11:50 Session 1 (Chair: J. Juarez)

10:50 Olga Kamińska, et al.: Self organizing maps using acoustic features for prediction of state change in bipolar disorder
11:10 Alexander Galozy, et al.: Towards Understanding ICU Treatments using Patient Health Trajectories
11:30 Erica Ramirez, et al.: Interpretable Anomaly Detection and Classification of Multivariate Time Series for Transparent Human Gait Analysis

11:50-12:50 Session 2 (Chair: S. Nowaczyk)

11:50 Leon Kopitar, et al.: Local vs. Global Interpretability of Machine Learning Models in Type 2 Diabetes Mellitus Screening
12:10 Bernardo Cánovas Segura, et al.: Exploring antimicrobial resistance prediction using post-hoc interpretable methods
12:30 Katarzyna Kobylińska, et al.: Explainable machine learning for modeling of early postoperative mortality in lung cancer

12:50 - 14:00 Lunch Break

14:00 - 15:30 Session 3 (Chair: G. Stiglic)

14:00 Keyuan Jiang, et al.: An Explainable Approach of Inferring Potential Medication Effects from Social Media Data
14:20 Xuwen Wang, et al.: A Computational Framework towards Medical Image Explanation 14:40 Discussion and workshop closing

15:30 - 16:00 (farewell) Coffee Break

teaam/start.1570464026.txt.gz · Last modified: 2019/10/07 16:00 by gjn
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